Published 1/2024
MP4 | Video: h264, 1920×1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 5.97 GB | Duration: 13h 3m
Master ETABS for Real-World Projects with Building Code-Based Design for Structural Excellence. Go from beginner to Pro
What you’ll learn
Structural Analysis and Design of a Residential Building Using ETABS
ETABS
Linear Static Analysis of RCC Structures
Analyze and Design Any Kind of Civil Engineering Structure Using ETABS
Export Designed Data to Excel for Further Calculations
Preliminary Design of Structural Members
Detail and Design Column and Beam Longitudinal and Shear Reinforcement
Structural Design of R.C Building from A to Z
Earthquake Design
Wind Design
Learn How to Structurally Design RCC Buildings from Scratch in ETABS
Interpret Analyzed Results from ETABS and Create Economic Designs
Design Structural Elements (Columns, Beams, All Types of Slabs)
Read and Understand Building Code Provisions
Assign Gravity Loads Properly and According to the Building Code
Navigate Through the ETABS Software for Basic Modeling and Assigning Loads
Use ETABS for Analysis and Design
Perform Wind Load Calculation According to Building Code
Assign Wind Load in ETABS
Perform Earthquake Load Calculation According to Building Code
Assign Earthquake Load in ETABS
Detect Irregularities According to the Building Code
Conduct Serviceability Criteria Checks According to Code
Perform Additional Checks Based on ETABS Output
Use Property Modifiers for Carrying Out Limit State Design
Design Building Components Such as Beams, Columns, and Slabs
Implement Seismic Detailing According to Code
Requirements
Minimum basic knowledge about structural analysis and design
Have ETABS (version 13 or higher) installed in your laptop or PC.
Description
The only course you’ll need to Master Building Code based Building Design using ETABS.Understanding and using building code provisions in Analysis and Design is crucial for getting your project approved for construction.Just learning ETABS or any other structural analysis and design software won’t approve your design without proper application of the building code provisions and structural understanding. Thus in this course, you will not only learn the ETABS software but you will also learn about and application of building code in the analysis and design of buildings.From this course, you will learn about:ETABSDifferent phases in structural analysis and designAnalysis type and methodPrinciples of designDesign methods of RC structuresStrength reduction factor and load factorDocuments required for structural design and drawing of building structuresBuilding information to decide onInformation for software modelGravity loadsLateral loads (wind, earthquake)Checks to do after analysisHow to check with notion and hand calculationHow material properties are used and documentedStructural framing systems and load combinationsMesh considerationsWhat are diaphragms and what is their purpose in a structural systemEffective stiffness or property modifiersTorsional constant and indeterminacyDecision regarding support conditionsAfter completing this course you will be able to:Read and understand building code provisionsAssign gravity loads properly and according to the building codeNavigate through the ETABS software for basic modeling and assigning loadsETABS for analysisETABS for designWind load calculation according to building codeAssign wind load in ETABSEarthquake load calculation according to building codeAssigning earthquake load in ETABSDetect irregularities according to the building codeDo serviceability criteria checks according to the codeDo additional checksAnalysis checks based on ETABS outputUse property modifiers for carrying out limit state designDesign building components such as Beams, Columns, and SlabsSeismic detailing according to codeSection based learning:Section-1:An overview and understanding in a broader sense of all the things we will be learning.Section-2:you will learn about gravity load considerations for a building, you will learn things like common gravity load considerations for a building, and how to calculate- fixed partition wall load, random wall load, elevator load, gardening load, and water tank load according to building code.Section-3:we will start our ETABS model and apply all the knowledge you have acquired in the first two sections into our ETABS model, you will learn how to model a building in ETABS. You will learn how to assign gravity loads in ETABS.Section-4:you will learn about wind loads and how to calculate wind loads according to building code, you will learn about structural importance factor, occupancy category, wind directionality factor, positive and negative internal wind pressure in structures, gust effect factor, encloser classification of buildings, external pressure coefficient, velocity pressure co-efficient, surface roughness, value of topographic factor and according to building code for the purpose of acquiring the necessary skills to do wind load calculation for any building structure according to code.Section-5:you will learn how to define wind load patterns in ETABS.Section-6:you will learn how to do earthquake load calculations or base shear calculations according to both ACI and Euro code methods furthermore you will learn about the causes of earthquakes, tectonic plate movement, elastic rebound theory, peak ground acceleration, design-based earthquake, earthquake base shear formula breakdown, reasons behind response modification factors, seismic zone coefficient, soil site classification, response reduction factor, seismic weight, why does seismic detailing exist while there is no such thing as wind detailing and much more according to building code provisions.Section-7:you will learn how to assign earthquake load or base shear in your ETABS model.Section-8:you will learn how to run analysis in ETABS and how to use the analysis output to do analysis checks such as checking the total load of a building, checking for gravity loads checking for lateral load and you will also learn how to calculate the transfer of load from slab to beam by means of hand calculation.Section-9:you will learn about the building irregularities and how to check for the irregularities defined in the building code as well as why do you have to check for them and how to solve the irregularities if they occur. Some of the irregularities you will learn about are re-entrant corner, torsional, non-parallel system, diaphragm discontinuity, out-of-plane offsets, stiffness, soft story, weak story, mass irregularity, geometric irregularities, and so on. You will also learn how to check for these irregularities using your ETABS model and hand calculations.Section-10:you will learn about the serviceability criterion, what is it, why to check for it, why to maintain it, and how to use your ETABS model to check for these serviceability criteria according to building code. Some of the serviceability criteria you will be learning are vertical deflection limits, allowable displacements, story drift, maximum displacement due to earthquake, maximum drift due to earthquake, and so on.Section-11:Other than serviceability criteria and irregularities other are other checks known as the additional checks that can be required from time to time and you will learn about those in the eleventh section. Some of the additional checks include accidental torsional moment, P-delta effect, separation between adjacent structures, uplift, and so on.Section-12:you will learn how to assign property modifiers to structural components in ETABS for generating limit state designs.Section-13:you will see some design procedures for RCC building components namely- columns, beams, and slabs.Section-14:you will learn about seismic detailing according to code how to check if the detailing criteria are according to building code guidelines and an introduction to building code criteria to special and intermediate seismic detailing along with sample calculations to better understand the building code criteria.Prerequisites:· Minimum basic knowledge of structural analysis and design· Have ETABS (version 13 or higher) installed on your laptop or PC.But if you just want to learn how structural analysis and design is done according to code without the intent to practice then there are no prerequisites for you as everything has been explained in the course.
Overview
Section 1: Introduction and Basic Concepts & Requirements of Analysis and Design
Lecture 1 Introduction
Lecture 2 Introduction to Masterclass
Lecture 3 Different Phases in Structural Analysis and Design
Lecture 4 Analysis Type & Method
Lecture 5 Principles of Design
Lecture 6 Design Methods for RC Structures
Lecture 7 Strength reduction factor and Load Factor
Lecture 8 Documents Required for structural Design and Drawing of Building Structures
Lecture 9 Building Information to Decide on
Lecture 10 Information for Software Model
Lecture 11 Checks to do After Analysis
Lecture 12 Check with notion and hand calculation.
Lecture 13 Design Considerations- Material Properties
Lecture 14 Structural framing system and load combination
Lecture 15 Mesh Considerations
Lecture 16 Diaphragm
Lecture 17 Effective stiffness or Property Modifier
Lecture 18 Torsional Constant and Indeterminacy
Lecture 19 Support Conditions
Section 2: Gravity Load Considerations for a Building
Lecture 20 Common Gravity load examples for a Residential Building.
Lecture 21 How to calculate fixed partition wall load
Lecture 22 How to calculate elevator load according to code
Lecture 23 How to calculate overhead water tank load
Lecture 24 Gardening load precautions
Lecture 25 Material properties data in Code
Lecture 26 Minimum Live loads table in building code (Bangladesh & Canada)
Section 3: ETABS Model (design specification & Gravity loads)
Lecture 27 Inputting Grid and story data in ETABS
Lecture 28 Defining Material Properties
Lecture 29 Defining section properties in ETABS
Lecture 30 Placing columns on first floor
Lecture 31 placing the shear wall
Lecture 32 Drawing beams
Lecture 33 How to draw slabs in ETABS all three methods
Lecture 34 Drawing the floor slabs and the landing slab
Lecture 35 Drawing the stairs
Lecture 36 Checking the staircase model
Lecture 37 Defining Load Patterns
Lecture 38 Applying floor slab loads
Lecture 39 Applying fixed partition wall loads (beam loads)
Lecture 40 Applying stair and lobby loads
Lecture 41 How to check load applications in ETABS
Lecture 42 Adding an extra column for structural stability
Lecture 43 Fixing slab meshes according to mesh considerations.
Lecture 44 Replicating floors in ETABS
Lecture 45 All Story, Similar story, and one-story working option in ETABS
Lecture 46 Select, Deselect options in ETABS and roof load considerations.
Section 4: Wind Load, Wind Pressure Considerations and calculations for a Building
Lecture 47 How to determine structural importance factor
Lecture 48 How to determine occupancy category of building according to code
Lecture 49 How to determine basic wind speed for building design
Lecture 50 How to take wind directionality factor
Lecture 51 Positive and Negative Internal Wind pressure in structures
Lecture 52 Encloser Classification of buildings
Lecture 53 How to determine enclosure classification
Lecture 54 How to determine enclosure classification part-2
Lecture 55 External pressure co-efficient part 1
Lecture 56 External pressure co-efficient part-2
Lecture 57 How to determine velocity pressure exposure co-efficient for building floors
Lecture 58 Surface roughness classifications according to building code
Lecture 59 How to determine exposure categories
Lecture 60 How to determine Exposure categories continued
Lecture 61 How to determine gust effect factor
Lecture 62 Value of Topographic factor
Section 5: Defining Wind Load Patterns in ETABS
Lecture 63 How to define wind load patterns in ETABS
Section 6: Earthquake Load Consideration and calculation
Lecture 64 Reasons for earthquake
Lecture 65 Tectonic plate movement and the changed geography of the earth
Lecture 66 What is the cause of tectonic plate movement
Lecture 67 Elastic Rebound theory
Lecture 68 Different types of seismic waves
Lecture 69 Difference between earthquake intensity and magnitude
Lecture 70 Peak Ground acceleration
Lecture 71 Design based earthquake, Maximum considered earthquake and Service Earthquake
Lecture 72 Earthquake base shear formula breakdown
Lecture 73 Reason behind response modification factor and seismic detailing
Lecture 74 How to determine seismic zone coefficient
Lecture 75 How to determine soil site classification
Lecture 76 How to calculate normalized acceleration response Spectrem
Lecture 77 How to determine seismic design category of buildings
Lecture 78 How to determine response reduction factor
Lecture 79 How to calculate response reduction factor for buildings with shear walls
Lecture 80 How to calculate seismic weight
Lecture 81 How to calculate Base shear using ASCE code as well as Euro Code
Section 7: Define Earthquake load and Mass source in ETABS
Lecture 82 How to define Seismic Load in ETABS
Lecture 83 How and why to define mass source in ETABS
Section 8: Analysis & Analysis Output
Lecture 84 How to check total load of a building
Lecture 85 How to check column load of a building with ETABS results
Lecture 86 How to check dead and live load using animation
Lecture 87 Check for lateral loads using animation
Lecture 88 How to change or add support condition in ETABS
Lecture 89 How to see column reaction forces in ETABS
Lecture 90 How to check total load of building from ETABS results
Lecture 91 Understanding Load transfer – how slab load is transferred to beam
Lecture 92 How to determine cantilever slab thickness according to building code
Section 9: Building Irregularities
Lecture 93 What are building irregularities and why do we need to check them
Lecture 94 Which Building Irregularities are not dependent upon analysis results
Lecture 95 How to identify re-entrant corners irregularity
Lecture 96 Re-internet corners irregularity
Lecture 97 Diaphragm Discontinuity irregularity
Lecture 98 Out of Plane offsets Irregularity
Lecture 99 Non-parallel System Irregularity
Lecture 100 Vertical Geometric Irregularity
Lecture 101 Vertical In-Plane Discontinuity in Vertical Elements Resisting Lateral Force
Lecture 102 Torsional Irregularity
Lecture 103 How to get Torsional Irregularity Values from ETABS
Lecture 104 How to determine stiffness Irregularity – Soft Story
Lecture 105 How to get Storey stiffness and Storey shear force values in ETABS
Lecture 106 How to calculate Soft Storey using Shear forces
Lecture 107 Stiffness Irregularity using excel sheet
Lecture 108 How to check for Weak Storey
Lecture 109 What is Mass Irregularity
Lecture 110 How to calculate Mass Irregularity
Lecture 111 Why Structural Courses need Practice
Lecture 112 How to get Mass Irregularity values from ETABS
Section 10: Serviceability Criterion
Lecture 113 Serviceability Criterion for Building Design
Lecture 114 How to Calculate Vertical Deflection limits for Serviceability Criterion
Lecture 115 How to check Vertical Deflection limit from ETABS Model
Lecture 116 How to Determine Allowable displacement for wind load according to building code
Lecture 117 How to determine Storey drift limitation according to building code
Lecture 118 How to display Storey response plots in ETABS
Lecture 119 How to Check for Maximum Storey Drift for wind in ETABS
Lecture 120 How to determine maximum displacement due to earthquake according to buildingcod
Lecture 121 Maximum drift for Earthquake
Lecture 122 How to check Serviceability criterion using ETABS
Section 11: Additional Checks
Lecture 123 Additional Check requirements – Overturning moment
Lecture 124 Why do you need or don’t need additional checks
Lecture 125 How to check for Accidental Torsional Moment
Lecture 126 Additional Requirements P delta effect
Lecture 127 Separation Between Adjacent structures
Lecture 128 How to check and prevent uplift effect according to building code
Lecture 129 Global and Local Additional Requirements
Section 12: Property Modifiers
Lecture 130 Instructions for proper serviceability criterion
Lecture 131 How to assign property modifiers in ETABS
Lecture 132 Serviceability criterion proper check
Section 13: Design Procedure of RCC building Components
Lecture 133 How to apply design property modifiers in ETABS
Lecture 134 Fixing the top floor
Lecture 135 Looking at the user specified drift
Lecture 136 How to change design preferences in ETABS
Lecture 137 How to override design consideration in ETABS
Lecture 138 How to add load combinations in ETABS
Lecture 139 How to run design in ETABS
Lecture 140 How to Identify which columns need change in size.
Lecture 141 Adding in new Column sizes
Lecture 142 How to change property modifiers later on
Lecture 143 How to assign Diaphragms properly in ETABS
Lecture 144 Fixing Errors in ETABS model
Lecture 145 Design of columns part-1
Lecture 146 How to do moment release of secondary beams in ETABS
Lecture 147 How to fix shear and torsion failure of beams in ETABS
Lecture 148 How to identify all types of failures in ETABS
Lecture 149 How to do column design using ETABS and Excel
Lecture 150 Column schedule and rebar schedule in AutoCAD
Lecture 151 How to design Beams in ETABS
Lecture 152 How to design beams using ETABS values
Lecture 153 Shear design method of columns
Lecture 154 Shear design methods for beams
Lecture 155 How to add design strips in ETABS for slab design
Lecture 156 How to add Design combinations for Slab design in ETABS
Lecture 157 How to do slab design in ETABS
Lecture 158 How to do slab design semi-automatic
Lecture 159 Slab rebar spacing
Section 14: Introduction to Seismic Detailing
Lecture 160 Seismic detailing overview
Lecture 161 What are the material properties for special seismic detailing
Lecture 162 Flexural member definition according to building code
Lecture 163 How to determine beam size for special seismic detailing
Lecture 164 How to check longitudinal reinforcement for special seismic detailing
Lecture 165 Special seismic detailing of beams
Lecture 166 Lap splice and anchorage for special seismic detailing
Lecture 167 Shear reinforcement for special seismic detailing
Lecture 168 Maximum Design shear force for special seismic detailing
Lecture 169 What should be the size of axial members for special seismic detailing
Lecture 170 Lap splice distance for axial members
Lecture 171 Allowable reinforcement ration of columns for seismic detailing
Lecture 172 The BCC failure and why to avoid it
Lecture 173 How to do shear seismic detailing of columns
Lecture 174 Seismic shear reinforcement for axial members
Lecture 175 Special confining reinforcement for column and shear wall joint
Lecture 176 How to check area of rectangular hoops for seismic detailing
Lecture 177 Special Seismic detailing for frame joints
Lecture 178 Intermediate seismic detailing for flexural members
Lecture 179 Intermediate seismic detailing of Axial Members
Lecture 180 Intermediate seismic detailing for flat slabs
Lecture 181 Intermediate seismic detailing of column strip of flat plate
Lecture 182 Intermediate seismic detailing of middle strip of flat plate slab
Lecture 183 What’s Next
Section 15: Bonus
Lecture 184 Bonus
Civil/Structural Engineers and Students,Civil engineering students who wish to learn ETABS for structural analysis and design.,Graduates doing project on building design.,Civil engineering graduates who wish to pursue their career in structural analysis and design of buildings.,Civil engineering students curious about learning how to use ETABS software.,Structural Engineers,Engineering students and Engineers who want to learn Building Code based Design.
Homepage
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